物探与化探
物探與化探
물탐여화탐
GEOPHYSICAL AND GEOCHEMICAL EXPLORATION
2014年
1期
63-70
,共8页
石鸿翠%周江羽%王龙樟%孙美静%向远高
石鴻翠%週江羽%王龍樟%孫美靜%嚮遠高
석홍취%주강우%왕룡장%손미정%향원고
盖层%突破压力%测井解释%异常高压%鄂尔多斯盆地
蓋層%突破壓力%測井解釋%異常高壓%鄂爾多斯盆地
개층%돌파압력%측정해석%이상고압%악이다사분지
caprock%breakthrough pressure%logging interpretation%abnormal high pressure%Ordos Basin
突破压力是泥质盖层封闭性能评价的关键参数,通过岩心实测数据与测井参数的相关分析,建立了声波时差与突破压力的关系,并依据此关系研究了鄂尔多斯盆地南部地区上古生界泥岩突破压力的垂向和平面分布规律。结果表明,突破压力西高东低、北高南低,且东西向压力差异显著。中二叠世早期开始,盆地南部湖相分布广泛,沉积速率快,泥质含量高,晚三叠世-早侏罗世盆地快速沉降,上石盒子组泥岩在叠加压实过程中排液受阻,发育异常高压,突破压力总体表现较低。下石盒子组沉积期及其以前,突破压力高值沿庆阳、延安及宜川呈弧形展布,低值沿南西向分布,从上石盒子时期开始,突破压力低压值的分布方向由研究区的南西向逐渐变化为南东向,高值则由东部和东北部迁移到西部及西南部。
突破壓力是泥質蓋層封閉性能評價的關鍵參數,通過巖心實測數據與測井參數的相關分析,建立瞭聲波時差與突破壓力的關繫,併依據此關繫研究瞭鄂爾多斯盆地南部地區上古生界泥巖突破壓力的垂嚮和平麵分佈規律。結果錶明,突破壓力西高東低、北高南低,且東西嚮壓力差異顯著。中二疊世早期開始,盆地南部湖相分佈廣汎,沉積速率快,泥質含量高,晚三疊世-早侏囉世盆地快速沉降,上石盒子組泥巖在疊加壓實過程中排液受阻,髮育異常高壓,突破壓力總體錶現較低。下石盒子組沉積期及其以前,突破壓力高值沿慶暘、延安及宜川呈弧形展佈,低值沿南西嚮分佈,從上石盒子時期開始,突破壓力低壓值的分佈方嚮由研究區的南西嚮逐漸變化為南東嚮,高值則由東部和東北部遷移到西部及西南部。
돌파압력시니질개층봉폐성능평개적관건삼수,통과암심실측수거여측정삼수적상관분석,건립료성파시차여돌파압력적관계,병의거차관계연구료악이다사분지남부지구상고생계니암돌파압력적수향화평면분포규률。결과표명,돌파압력서고동저、북고남저,차동서향압력차이현저。중이첩세조기개시,분지남부호상분포엄범,침적속솔쾌,니질함량고,만삼첩세-조주라세분지쾌속침강,상석합자조니암재첩가압실과정중배액수조,발육이상고압,돌파압력총체표현교저。하석합자조침적기급기이전,돌파압력고치연경양、연안급의천정호형전포,저치연남서향분포,종상석합자시기개시,돌파압력저압치적분포방향유연구구적남서향축점변화위남동향,고치칙유동부화동북부천이도서부급서남부。
The breakthrough pressure is the key parameter in evaluating the sealing capabilities of mudstone caprock. Through the cor-relation analysis of measured core pressures and logging data, the equation between the acoustic transit time and the breakthrough pres-sure was established and, on such a basis, the vertical and plane variation characteristics of mudstone breakthrough pressures in the Upper Paleozoic of south Ordos Basin were studied. The result showed that pressure values in the west and north areas were higher than those in the south and east, and pressure differences in the east-west direction were remarkable. Due to high deposition rate and clay content in the wide lake facies developed from early Middle Permian and rapid subsidence of basin from Late Triassic to Early Juassic, liquid discharge of mudstone in the Upper Shihezi Formation was blocked during the overlying compaction that caused abnormal high pressures and relatively low breakthrough pressures. Before and during the deposition of Lower Dhihezi Formation, high breakthrough pressures were distributed in arc along Qingyang, Yanan and Yichuan, low pressures were in the SW direction of the study area, while from the Upper Shihezi Formation period, low pressure distribution direction changed gradually southeastward and high pressures trans-ferred from the east and northeast of the study area to the west and southwest.